• ISSN 2097-1893
  • CN 10-1855/P
张风雪,李昱,陈泆平. 2024. 浅析震源位置准确度及其影响因素. 地球与行星物理论评(中英文),55(0):1-11. DOI: 10.19975/j.dqyxx.2024-025
引用本文: 张风雪,李昱,陈泆平. 2024. 浅析震源位置准确度及其影响因素. 地球与行星物理论评(中英文),55(0):1-11. DOI: 10.19975/j.dqyxx.2024-025
Zhang F X, Li Y, Chen Y P. 2024. A brief analysis of hypocenter location accuracy and its influencing factors. Reviews of Geophysics and Planetary Physics, 55(0): 1-11 (in Chinese). DOI: 10.19975/j.dqyxx.2024-025
Citation: Zhang F X, Li Y, Chen Y P. 2024. A brief analysis of hypocenter location accuracy and its influencing factors. Reviews of Geophysics and Planetary Physics, 55(0): 1-11 (in Chinese). DOI: 10.19975/j.dqyxx.2024-025

浅析震源位置准确度及其影响因素

A brief analysis of hypocenter location accuracy and its influencing factors

  • 摘要: 地震定位是地震学研究的基础,然而地震定位和地震学研究之间存在“供给”矛盾. 不同研究对地震位置准确度级别的要求不尽相同,震源机制和壳幔结构研究要求震源位置的准确度为千米级别,工业生产活动和诱发地震研究要求震源位置的准确度为百米级别. 然而,地震监测台网给出的地震位置准确度仅为数千米. 诸多地震定位方法从不同方面对地震定位过程进行优化和改进,但它们的侧重点不尽相同. 总体而言,已有的定位方法对地震位置的准确度关注程度尚显不足. 在大量的地震定位实践中,前人获得了用于优化地震位置准确度的若干经验法则,这些经验法则不但存在地区差异,而且还有一定的适用条件,经验法则仍需要被进一步地优化和修正. 本文简要分析地震定位准确度的多方面影响因素,有针对性地开展研究,在地震定位算法和控制观测数据质量方面获得一定的研究进展;在地震定位耦合关系方面补充了定位速度模型、发震位置和发震时刻三者之间的制约关系;在地震定位流程方面提出了使用逐步消元定位的建议.

     

    Abstract: Earthquake location is fundamental to seismological research. However, there exists a supply contradiction between seismic location accuracy and the needs of seismological studies. Different studies require varying levels of accuracy in earthquake location. For example, studies on focal mechanisms and crust-mantle structures demand accuracy at the kilometer level, while industrial activities and induced seismicity researches require accuracy at the hundred-meter level. Yet, the accuracy of earthquake locations provided by seismic monitoring networks is only within a few kilometers. Numerous earthquake localization methods have been optimized and improved from different perspectives, but their focuses vary. Overall, existing localization methods have not paid sufficient attention to the accuracy of earthquake positioning. In extensive earthquake localization practices, predecessors have developed several empirical rules for optimizing earthquake position accuracy. These empirical rules not only vary by region but also have specific applicability conditions, and they still need further optimization and refinement. This paper briefly analyzes the various factors influencing the accuracy of earthquake localization and conducts targeted research. It has achieved some progress in earthquake localization algorithms and the quality control of observational data. The study supplements the coupling relationship in earthquake localization by exploring the constraints among the velocity model, hypocenter location, and origin time. Additionally, the paper proposes the use of a stepwise elimination process in the earthquake localization workflow.

     

/

返回文章
返回